Acquisition time for ground-to-satellite optical communication system in weak atmospheric turbulence with spatial diversity

Kaushal H.; Jain V.K.; Kar S.

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Acquisition time for ground-to-satellite optical communication system in weak atmospheric turbulence with spatial diversity

机译：具有空间分集的弱大气湍流中地对地光通信系统的捕获时间

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In this article, various issues involved in a ground-to-satellite optical communication link (i.e., acquisition time, uncertainty area, and channel noise) are discussed. Acquisition time of a free-space optical link is evaluated for coherent (sub-carrier BPSK and QPSK) and non-coherent (OOK and [image omitted]-PPM) modulation schemes over weak turbulent channel with transmit diversity. In the analysis, both uncorrelated and correlated beams are considered. It is seen that an increase in transmit diversity order helps to improve the acquisition time, irrespective of turbulence strength in the atmosphere. At high correlation, a marginal change in acquisition time is observed with the increase in diversity order.

机译：在本文中，将讨论地面到卫星光通信链路中涉及的各种问题（即采集时间，不确定区域和信道噪声）。针对具有发射分集的弱湍流信道，针对相干（子载波BPSK和QPSK）和非相干（OOK和[省略图像-PPM]）调制方案，评估了自由空间光链路的采集时间。在分析中，考虑了不相关光束和相关光束。可以看出，与大气中的湍流强度无关，发射分集阶数的增加有助于改善捕获时间。在高相关性下，随着分集顺序的增加，观察到采集时间的边际变化。

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《Fiber and Integrated Optics》 |2010年第5期|共23页
作者
Kaushal H.; Jain V.K.; Kar S.;
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正文语种 eng
中图分类波导光学与集成光学;
关键词
acquisition time; atmospheric turbulence; free-space optical communication; spatial diversity;

机译：采集时间;大气湍流;自由空间光通信;空间分集;

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专利

1. Acquisition time for ground-to-satellite optical communication system in weak atmospheric turbulence with spatial diversity [J] . Kaushal H., Jain V.K., Kar S. Fiber and Integrated Optics . 2010,第5期

机译：具有空间分集的弱大气湍流中地对地光通信系统的捕获时间
2. Exact error rate analysis of free-space optical communications with spatial diversity over Gamma-Gamma atmospheric turbulence [J] . Ma Jing, Li Kangning, Tan Liying, Journal of Modern Optics . 2016,第1a3期

机译：Gamma-Gamma大气湍流中具有空间分集的自由空间光通信的精确误码率分析
3. Performance analysis of satellite-to-ground downlink optical communications with spatial diversity over Gamma-Gamma atmospheric turbulence [J] . Kangning Li, Jing Ma, Anlceto Belmonte, Optical engineering . 2015,第12期

机译：Gamma-Gamma大气湍流中具有空间分集的卫星对地面下行链路光通信的性能分析
4. Performance evaluation of different Pulse Position Modulation schemes in atmospheric turbulence channel for ground-to-satellite optical communication [C] . Tiwari Sourabh, Jain V. K., Kar Subrat 2012 International Conference on Optical Engineering. . 2012

机译：地面到卫星光通信中大气湍流信道中不同脉冲位置调制方案的性能评估
5. Spatial coherence of atmospheric turbulence corrupted laser beams: Applications to free-space optical communications. [D] . Bucaille, Stephane. 2004

机译：大气湍流破坏的激光束的空间相干性：在自由空间光通信中的应用。
6. Improved BDF Relaying Scheme Using Time Diversity over Atmospheric Turbulence and Misalignment Fading Channels [O] . Antonio García-Zambrana, Carmen Castillo-Vázquez, Beatriz Castillo-Vázquez -1

机译：在大气湍流和失准衰落信道上使用时间分集的改进BDF中继方案
7. Free-space optical communication employing. subcarrier modulation and spatial diversity in atmospheric turbulence channel [O] . Gao, S, Popoola, W 2008

机译：自由空间光通信应用。大气湍流信道中的副载波调制和空间分集
8. Spatial Acquisition Algorithms and Systems for Intersatellite Optical Communication Links [R] . Van Hove, P., Chan, V. W. S. 1984

机译：星间光通信链路的空间捕获算法和系统

Acquisition time for ground-to-satellite optical communication system in weak atmospheric turbulence with spatial diversity

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